Personal Biography

Dr. Ben-Chuan Lin is a Group Leader of quantum transport in IQA@SZ, working in the field of quantum materials and superconductivity. He received his B.Sc. from the University of Science and Technology of China and his Ph.D. in Physics from Peking University. His research focuses on quantum materials, including unconventional superconductors, topological materials, and nanoscale quantum devices. He has published in leading journals such as PRL, Science Bulletin, Nature Communications, et al. His recent work revealed signatures of p-wave superconductivity in kagome superconductors. His ongoing research explores unconventional superconducting states and their potential applications in next-generation quantum technologies.

Education Background

Sep 2014 – Jul 2019 Peking University, Beijing, China Ph.D., Condensed Matter Physics

Sep 2009 – Jul 2013 University of Science and Technology of China, Hefei, China.

B.S., Theoretical Physics

Working Experience

Jan 2025 – present     Shenzhen International Quantum Academy, Group Leader.

Ongoing Projects:

Design and application of magnetic topological materials;

Multi-field tuning of topological spin structures;

Research on 3D quantum Hall effect and nonlinear Hall effect.

Sep 2022 – Jan 2025 Southern University of Science and Technology, Shenzhen, China

Associate Professor

Jul 2019 – Sep 2022 Southern University of Science and Technology, Shenzhen, China

Assistant Professor

Papers and Patents

1. Shuo Wang, Jing-Zhi Fang, Xilin Feng, Kam Tuen Law^#, Ben-Chuan Lin^#, Dapeng Yu^#, et al. Spin-polarized p-wave superconductivity in the kagome material RbV₃Sb₅. arxiv: 2405.12592 (2024) (Nature Communications Accepted).

2. Xilin Feng, Ziting Sun, Ben-Chuan Lin, Kam Tuen Law. Odd-parity topological superconductivity in kagome metal RbV₃Sb₅. arxiv: 2501.10998 (2025).

3. Shuo Wang, Jing-Zhi Fang, Ben-Chuan Lin^#, Dapeng Yu, et al. Two-fold symmetric superconductivity in the kagome superconductor RbV₃Sb₅. Communication Physics 7, 15 (2024).

4. Ben-Chuan Lin, Shuo Wang, Zhi-Min Liao, Dapeng Yu, et al. Electric Control of Fermi Arc Spin Transport in Individual Topological Semimetal Nanowires. Phys. Rev. Lett. 124, 116802 (2020). (Editors’ suggestion)

5. Ben-Chuan Lin, Shuo Wang, Zhi-Min Liao, Dapeng Yu, et al. Observation of an Odd-Integer Quantum Hall Effect from Topological Surface States in Cd₃As₂. Physical Review Letters 122, 036602 (2019).

6. Jing-Zhi Fang, Zhongming Wei^#, Jinxing Zhang^#, Ben-Chuan Lin^#, Zhi-Min Liao^#, Dapeng Yu, et al. Exchange bias in the van der Waals heterostructure Mn Bi₂Te₄/Cr₂Ge₂Te₆. Phys. Rev. B 107, L041107 (2023).

7. Ben-Chuan Lin, Chunlai Xue^#, et al. Spontaneous ferromagnetism and magnetoresistance hysteresis in Ge_1–xSn_x alloys. Science Bulletin 66, 1375–1378 (2021).

8. Jing-Zhi Fang, Ben-Chuan Lin^#, Zhongming Wei^#, Dapeng Yu, Zhi-Min Liao^#, et al. Intermediate anomalous Hall states induced by noncollinear spin structure in the magnetic topological insulator MnBi₂Te₄. Phys. Rev. B 104, 054409 (2021).

9. Shuo Wang^*, Ben-Chuan Lin^*, Zhi-Min Liao^#, Dapeng Yu, et al. Fano Interference between Bulk and Surface States of a Dirac Semimetal Cd₃As₂ Nanowire. Physical Review Letters 120, 257701 (2018).

10. Xin-Jie Liu, Yanfei Wu^#, Ben-Chuan Lin^#, Shouguo Wang^#, et al. Tunable Anomalous Hall Effect in Non‐Magnetic Topological Semimetal Cd₃As₂ Nanoplates. Advanced Electronic Materials, 11, e00384 (2025).